Sterilization container latch mounting system

ABSTRACT

The invention described herein includes a support assembly for a dual latch mechanism on a sterilization container, wherein the support assembly has improved structural rigidity and integrity for repeated usage. The support assembly comprises a pair of spaced apart blocks welded directly onto the exterior surface of the tray component of a sterilization container; wherein each of the blocks hingedly receive a lower latch plate of the dual latch mechanism. The invention further provides a dual latch mechanism for a sterilization container comprising the improved support assembly. The invention also provides a manufacturing process for sterilization containers having a lid component and tray component and dual latch mechanism, wherein the process comprises directly spot-welding two blocks in spaced apart position onto the exterior surface of the tray component.

FIELD OF THE INVENTION

The invention relates to the field of medical devices. In particular,the invention pertains to latching mechanisms used to secure lids andtrays to one another in sterilization containers.

BACKGROUND OF THE INVENTION

A number of mechanisms to securely and removably attach lids to medicalsterilization containers are known. A tightly sealed container system isimportant to the successful operation of medical sterilizationcontainers, which should avoid compromise and entry of environmentalcontaminants upon removal of the container from an autoclave, forexample.

One such lid and tray attachment system is the dual latch system forsterilization containers as described in Williams et al., U.S. Pat. No.4,915,913. The support structure described in Williams et al. isdepicted in detail in FIGS. 15 and 16 of Williams et al. This latchsystem support structure includes an elongated rectangular portionhaving two outstanding or protruding end portions coupled to eachrespective end of the rectangular potion. Each of the protruding endportions contains a hinge opening for receiving the hinge posts of oneof the latch components. The rectangular portion of this supportstructure is attached to the side of the container by accommodating fourattachment posts which, in turn, are welded onto the side of thecontainer.

One problem encountered with this support structure is mechanicalfailure. Partially as a result of the number of couplings utilized inthe assembly of the support structure of the Williams latch, the supportassembly is susceptible to metal fatigue and separation of the supportbar from the side of the container. Consequently, the dual latchmechanism, which depends upon the secure fixation of the supportstructure, separates and becomes inoperative. In turn, the barrierbetween the interior container environment and the exterior environmentcan be compromised.

Furthermore, the successful and smooth operation of the dual latchsystem requires taught fixed relationships between the components thatare to be permanently attached. Thus, even if the couplings of thesupport structure are loosened but not separated, the dual latchmechanism can be more difficult to operate due to the physicalinstability of the support assembly.

There is a need in the medical field for sterilization containers fordual latch assemblies having improved structural integrity. Furthermore,there is a need for support assemblies used in conjunction with duallatch mechanisms having more physically stable attachment to thesterilization container and having a sturdier construction.

SUMMARY OF THE INVENTION

The invention provides a support assembly for dual latch mechanisms forsterilization containers, said support assembly affording enhancedlong-term structural integrity and sturdiness for repeated usage. It hasbeen discovered that in addition to improved attachment integrity, asupport assembly can be designed that utilizes significantly fewercomponents and materials. The invention also provides a support assemblythat is directly attached or welded onto the container surface withoutrelying on the use of intermediate coupling structures, such as studs,posts or plates, on the sterilization container exterior surface forfixation of the latch mechanism. The need for complex secondarystructures between the latch mechanism and container surface tofacilitate attachment is removed.

The invention is particularly useful in multi-component or complexlatching mechanisms for sterilization containers wherein sturdy assemblyand precise relationships between the various interacting components isdirectly related to its operational success. It has been further beendiscovered that the improved support assembly can also be easilyconfigured to accommodate secondary structures, such as card holders andindicator arrows.

The invention provides a support assembly for the lower latch plate in adual latch mechanism on sterilization containers having lid and traycomponents. The support assembly comprises a pair of spaced apartblocks, each welded directly onto the exterior surface of the traycomponent of the sterilization container, wherein each of the blockshingedly receive one end of the lower latch plate.

The invention further provides dual latch mechanism for a sterilizationcontainer comprising a lid and tray component, the mechanism comprising:an upper latch subassembly associated with the lid component comprisinga upper hinged latch plate hingedly connected to the exterior surface ofthe lid; a lower latch subassembly attached to the exterior surface ofsaid tray component and comprising a lower hinged latch plate, the upperand lower hinged latch plates being reversibly engageable with oneanother to secure the lid to the tray; wherein the lower latchsubassembly comprises a support assembly comprising a pair of spacedapart blocks welded directly onto the exterior surface of said tray.Each end of the lower latch plate is hingedly connected to the traythrough one of the blocks.

Each of the blocks can be structured to accommodate secondary featuresuseful in conjunction with dual latch mechanisms, such as card holders,indicators, carrying handles, and the like. Such secondary features canbe accommodated by the support assembly by configuring the blockaccordingly.

The invention further provides a process for manufacturing asterilization container having a lid component and tray component anddual latch mechanism, said process comprising directly spot-welding twoblocks in spaced apart position onto the exterior surface of the traycomponent.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is further illustrated by the following figures, none ofwhich is to be construed as necessarily limiting the invention as to theparticular embodiments shown:

FIG. 1 is a side view of an assembled sterilization container assemblyshowing tray and lid components and having a dual latch system inaccordance with one embodiment of the invention.

FIG. 2 is an angled side view of a tray component of a sterilizationcontainer system and showing the lower latch subassembly according toone embodiment of the invention.

FIG. 3 is a side view of a tray component of a sterilization containersystem and showing the lower latch subassembly according to oneembodiment of the invention.

FIG. 4 is an angled side view of a tray component showing the supportassembly attached to the side of the tray wall in accordance with oneembodiment of the invention.

FIG. 5 is a view of the rear surface of one block of the pair of spacedapart blocks of the support assembly the according to one embodiment ofthe invention.

FIG. 6 is a side view of one block of the pair of spaced apart blocks ofthe support assembly according to one embodiment of the invention.

FIG. 7 is a side view of outer-facing side of one block of the pair ofspaced apart blocks of the support assembly according to one embodimentof the invention.

FIG. 8 is a side view of inner-facing side of one block of the pair ofspaced apart blocks of the support assembly according to one embodimentof the invention.

DETAILED DESCRIPTION OF THE INVENTION

The invention can be used with sterilization container systemscontaining a lid component and tray component to be securely andremovable attached to one another. Dual latch mechanisms, such as thatdescribed for use with the invention, provide a means to securely andremovably engage the lid with the tray. The dual latch mechanismgenerally comprises an upper latch plate hingedly attached to the lid,and lower latch plate hingedly attached to the tray, wherein the upperlatch plate and lower latch plate are structured to reversibly engageone another to secure the lid onto the tray. The improved supportassembly of the invention can be used with the lower latch subassemblyto enhance the sturdiness and precision of the dual latch mechanism as awhole, thereby improving its functionality and operation.

In general, one of the advantages of the invention is that the supportassembly for the dual latch mechanism is attached or welded directlyonto the exterior surface of the container—without requiring the use ofposts, intervening plates, and the like. Referring to FIG. 1, thesupport assembly consists of a pair of spaced apart blocks 20A and 20B,welded directly onto the exterior surface of the tray component 12 of asterilization container assembly 10. Each block of 20A and 20B isstructured to hingedly receive the lower latch plate 31 of a dual latchmechanism. As used herein, the term “block” is used to refer to ageneral shape of one embodiment of the component, and variations inshape, e.g., rectangular shapes, are possible provided such shapes canshare the function and advantages of the invention.

In one embodiment, the dual latch mechanism comprises an upper latchsubassembly associated with the lid 11 comprising a upper latch plate 30hingedly connected to the lid component 11, and a lower latchsubassembly attached to the exterior surface of the tray component 12.The lower latch subassembly can comprise a lower hinged latch plate 31.The upper hinged latch plate 30 and the lower hinged latch plate 31 arereversibly engageable with one another as shown in FIG. 1, for example.

Referring now to FIGS. 2, 3 and 4, the lower latch subassembly comprisesa support assembly consisting of a pair of spaced apart blocks (firstblock 20A and second block 20B), each of the blocks being weldeddirectly onto the exterior surface of the tray component 12 (as shown inFIG. 4). Each end of the lower latch plate 31 is hingedly connected toeach block 20A and 20B of the support assembly, such that said lowerlatch plate 31 is hingedly connected to the exterior surface of the tray12 through both of said blocks.

The hinged connections of the upper latch plate 30 and the lower latchplate 31 can be accomplished through the use of various movablestructures that permit the reversible engagement of the latch plates toone another. In one embodiment, the ends of the lower latch plate 31 canfurther comprise posts (not shown) that extend into hinge post openings21 located on the inner-facing side 22 both of the spaced apart blocks20A and 20B of the support assembly as shown in FIG. 8. A similarstructure can be used on the lid component 11 to hingedly receive posts(not shown) extending from each end of the upper latch plate 30 (seeFIG. 1).

An important aspect of the invention is that the support assemblyconsists of the pair of blocks, which are welded directly onto thecontainer surface, without the use of intervening coupling structuressuch as posts, plates, and the like. The directness and sturdiness ofthe lower latch subassembly onto the container surface, which in turnmechanically interacts with the remaining components of the dual latchsystem, affords enhanced sturdiness and structural integrity to thewhole dual latch mechanism. With the relatively reduced number ofcouplings to the container surface, there are consequently fewer sitesfor structural or mechanical failure to occur. This is importantconsidering that sterilization containers are intended for repeatedusage.

Turning now to FIGS. 4, 5, 6, 7 and 8, each of the blocks 20A and 20Bcan have a front surface 24 (A and B) as shown in FIG. 4 for example,rear surface 25 (A and B) as shown in FIG. 5 that attaches directly ontothe exterior surface of the tray 12, an inner-facing side 22 (A and B)and an outer-facing side 23 (A and B).

In a preferred embodiment and as shown in FIG. 6, each of the blocks 20is formed from an elongated planar rectangle-shaped sheet of metal. Themetal sheet comprises four transverse bends so as to form an overallcuboid block as seen in FIG. 5, for example. Referring again to FIG. 6,the block further comprises a second rear surface plate 29A and 29Bformed from a planar extension from one side of the block. Thus, fromthe side view, each block 20 (A and B) has an overall “P” shape, andeach block 20 has two planar surfaces—rear surface 25 (A and B) andsecond rear surface plate 29 (A and B)—contacting the exterior surfaceof the tray component. For labeling or cosmetic reasons, second rearsurface plates 29 are optionally covered or concealed by a superimposedcover plate 90 as shown in FIGS. 2 and 3.

Each of blocks 20A and 20B are directly attached to the exterior surfaceof the tray component. The rear surface of the block is spot-welded tothe surface of the tray component using a spot-welding press. Theelectrodes of the spot-welding press are positioned so as to spot-weldand fuse the interfacing metal of the block surface and tray surfacetogether. An important aspect of this process is that the metal ormetallic alloy of the block component and the tray surface be the same.Examples of metal that can be used in the invention include, but are notlimited to, aluminum and stainless steel. Thus, the surface of the blockand tray fuse to form a contiguous, uniform metallic bond that securelyand rigidly fastens the block onto the tray surface to form the supportassembly.

The blocks 20 can be structured to accommodate secondary features usefulin conjunction with dual latch mechanisms. Such secondary features canbe accommodated by the support assembly by configuring the blockaccordingly, or otherwise designing the secondary feature so as not tooperatively interfere with the dual latching mechanism.

In one embodiment, one or more of the blocks 20 of the support assemblycan be structured to accommodate a card holder 60. Card holders usedwith sterilization containers can receive plates or sheets containingvarious kinds of information such as a description of its contents orinstructions, for example. Suitable card holders can be used inconjunction with the block(s) can be those similar to that which isdescribed in U.S. patent application Ser. No. 11/010,255 filed Dec. 13,2004, now pending, the entire text of which is incorporated herein byreference—and as shown in FIGS. 1, 2 and 3. Card holders 60 can becomposed of either plastic or metal, and can be dimensioned andstructured to be superimposed over one of more of the blocks 20A and 20Bof the support assembly by slide-fitting or snap-fitting, for example.

In another embodiment, one or more blocks of the support assembly canaccommodate indicators. Indicators can include those having a stem-likeor arrow configuration and structured to be inserted through openings inthe block with one end protruding from the block and in front of thelower latch plate. Indicators of this type reveal whether the lowerlatch plate has been disturbed or whether the container has been opened.Suitable arrow indicators that can be used in conjunction with theinvention include those described in U.S. Des. Pat. No. 429,820 and U.S.design patent application Ser. No. 29/217,385 filed Nov. 16, 2004, nowpending, the entire texts of which are incorporated herein byreference—and as illustrated in FIG. 1. An arrow indicator 70 can becomposed of plastic and be structured for cooperative insertion as shownin FIG. 1 through a corresponding aligned openings 71 (see FIG. 4, forexample) located on both the inner-facing side 22 and outer-facing side23 a block 20.

In a further embodiment, the blocks of the support assembly can bestructured to accommodate one or more carrying handles. One example of asuitable carrying handle that can be employed is that described in U.S.Pat. No. 4,915,913, the entire text of which is incorporated herein byreference—and as shown in FIGS. 1 2 and 3 as carrying handle 80.

INDUSTRIAL APPLICABILITY

The invention is useful in conjunction with latch mechanisms,particularly dual latch mechanisms, on sterilization containers. Thesupport assembly imparts improved structural rigidity and sturdiness tothe latch mechanism fixed to it, thereby enhancing the long-termstructural integrity of the latch for repeated usage. As a result of theinvention, the post-sterilization interior environment of thesterilization container is less likely to be compromised as a result ofloosened fit between the lid and tray of the container which can occurover time through repeated usage.

The invention has been described herein above with reference to variousand specific embodiments and techniques. It will be understood by thoseof ordinary skill in the art that reasonable modifications andvariations of such embodiments and techniques can be made withoutsignificantly departing from either the spirit or scope of the inventiondefined by the claims below.

1. A support assembly for a lower latch plate in a dual latch mechanismsystem for a sterilization container having a lid component and traycomponent, said support assembly comprising: a pair of spaced apartblocks, each block welded directly onto the exterior surface of the traycomponent; wherein each of said blocks hingedly receive one end of saidlower latch plate.
 2. The support assembly according to claim 1, whereineach block is spot-welded directly onto the exterior surface of the traycomponent.
 3. The support assembly according to claim 1, wherein each ofsaid blocks comprise two rear surfaces spot-welded directly to theexterior surface of the tray component.
 4. The support assemblyaccording to claim 3, wherein said two rear surfaces comprise a rearsurface and separate second rear surface extension.
 5. The supportassembly according to claim 1, wherein both of said blocks are composedof the same metal or metallic alloy as the sterilization containersurface to which they are attached.
 6. A dual latch mechanism for asterilization container comprising a lid component and tray component,said dual latch mechanism comprising: an upper latch subassemblyassociated with the lid component comprising a upper hinged latch platehingedly connected to the exterior surface of said lid component; alower latch subassembly attached to the exterior surface of said traycomponent, said lower latch subassembly comprising a lower hinged latchplate, said upper hinged latch plate and said lower hinged latch platebeing reversibly engageable with one another; wherein said lower latchsubassembly comprises a support assembly consisting of a pair of spacedapart blocks, each of said blocks being welded directly onto theexterior surface of said tray.
 7. The dual latch mechanism according toclaim 6, wherein each end of said upper latch plate is hingedlyconnected to said exterior surface of said lid component, and each endof said lower latch plate is hingedly connected to each of said pair ofspaced apart blocks of said support assembly such that said lower latchplate is hingedly connected to the exterior surface of said tray throughboth of said blocks.
 8. The dual latch mechanism according to claim 6,wherein at least one of said blocks is structured to accommodate a cardholder.
 9. The dual latch mechanism according to claim 6, wherein atleast one of said blocks is structured to accommodate an indicatorelement inserted therethrough.
 10. The dual latch mechanism according toclaim 9, wherein said indicator element is an indicator arrow and isstructured to interact with said lower latch plate.
 11. The dual latchmechanism according to claim 6, wherein said blocks are structured toaccommodate a carrying handle attached thereto.
 12. The dual latchmechanism according to claim 11, wherein said carrying handle ishingedly attached to each of said blocks.
 13. A process formanufacturing a sterilization container having a lid component and traycomponent and dual latch mechanism, said process comprising directlyspot-welding two blocks in spaced apart position onto the exteriorsurface of said tray component.
 14. The process according to claim 13,wherein each of the blocks is composed of the same metal or metallicalloy as the tray component to which they are attached.